Multiple changes (Module Interopability, Timers, FDD Driver, VFS Bugs)

[tpg/acess2.git] / Kernel / arch / x86 / lib.c

/*
 * AcessOS Microkernel Version
 * lib.c
 */
#include <common.h>

// === CODE ===
void Spinlock(int *lock)
{
         int    v = 1;
        while(v)        __asm__ __volatile__ ("lock xchgl %%eax, (%%edi)":"=a"(v):"a"(1),"D"(lock));
}

void Release(int *lock)
{
        __asm__ __volatile__ ("lock andl $0, (%0)"::"r"(lock));
}

// === IO Commands ===
void outb(Uint16 Port, Uint8 Data)
{
        __asm__ __volatile__ ("outb %%al, %%dx"::"d"(Port),"a"(Data));
}
void outw(Uint16 Port, Uint16 Data)
{
        __asm__ __volatile__ ("outw %%ax, %%dx"::"d"(Port),"a"(Data));
}
void outd(Uint16 Port, Uint32 Data)
{
        __asm__ __volatile__ ("outl %%eax, %%dx"::"d"(Port),"a"(Data));
}
Uint8 inb(Uint16 Port)
{
        Uint8   ret;
        __asm__ __volatile__ ("inb %%dx, %%al":"=a"(ret):"d"(Port));
        return ret;
}
Uint16 inw(Uint16 Port)
{
        Uint16  ret;
        __asm__ __volatile__ ("inw %%dx, %%ax":"=a"(ret):"d"(Port));
        return ret;
}
Uint32 ind(Uint16 Port)
{
        Uint32  ret;
        __asm__ __volatile__ ("inl %%dx, %%eax":"=a"(ret):"d"(Port));
        return ret;
}

/**
 * \fn void *memset(void *Dest, int Val, Uint Num)
 * \brief Do a byte granuality set of Dest
 */
void *memset(void *Dest, int Val, Uint Num)
{
        __asm__ __volatile__ (
                "rep stosl;\n\t"
                "mov %3, %%ecx;\n\t"
                "rep stosb"
                :: "D" (Dest), "a" (Val), "c" (Num/4), "r" (Num&3));
        return Dest;
}
/**
 * \fn void *memsetd(void *Dest, Uint Val, Uint Num)
 */
void *memsetd(void *Dest, Uint Val, Uint Num)
{
        __asm__ __volatile__ ("rep stosl" :: "D" (Dest), "a" (Val), "c" (Num));
        return Dest;
}

/**
 * \fn int memcmp(const void *m1, const void *m2, Uint Num)
 * \brief Compare two pieces of memory
 */
int memcmp(const void *m1, const void *m2, Uint Num)
{
        while(Num--)
        {
                if(*(Uint8*)m1 != *(Uint8*)m2)  break;
                m1 ++;
                m2 ++;
        }
        return *(Uint8*)m1 - *(Uint8*)m2;
}

/**
 * \fn void *memcpy(void *Dest, void *Src, Uint Num)
 */
void *memcpy(void *Dest, const void *Src, Uint Num)
{
        if((Uint)Dest & 3 || (Uint)Src & 3)
                __asm__ __volatile__ ("rep movsb" :: "D" (Dest), "S" (Src), "c" (Num));
        else {
                __asm__ __volatile__ (
                        "rep movsl;\n\t"
                        "mov %3, %%ecx;\n\t"
                        "rep movsb"
                        :: "D" (Dest), "S" (Src), "c" (Num/4), "r" (Num&3));
        }
        return Dest;
}
/**
 * \fn void *memcpyd(void *Dest, void *Src, Uint Num)
 */
void *memcpyd(void *Dest, const void *Src, Uint Num)
{
        __asm__ __volatile__ ("rep movsl" :: "D" (Dest), "S" (Src), "c" (Num));
        return Dest;
}

/**
 * \fn Uint64 __udivdi3(Uint64 Num, Uint64 Den)
 * \brief Divide two 64-bit integers
 */
Uint64 __udivdi3(Uint64 Num, Uint64 Den)
{
        Uint64  ret = 0;
        
        if(Den == 0)    __asm__ __volatile__ ("int $0x0");      // Call Div by Zero Error
        if(Den == 1)    return Num;     // Speed Hacks
        if(Den == 2)    return Num >> 1;        // Speed Hacks
        if(Den == 4)    return Num >> 2;        // Speed Hacks
        if(Den == 8)    return Num >> 3;        // Speed Hacks
        if(Den == 16)   return Num >> 4;        // Speed Hacks
        if(Den == 32)   return Num >> 5;        // Speed Hacks
        if(Den == 1024) return Num >> 10;       // Speed Hacks
        if(Den == 2048) return Num >> 11;       // Speed Hacks
        if(Den == 4096) return Num >> 12;
        
        if(Num >> 32 == 0 && Den >> 32 == 0)
                return (Uint32)Num / (Uint32)Den;
        
        //Log("__udivdi3: (Num={0x%x:%x}, Den={0x%x:%x})",
        //      Num>>32, Num&0xFFFFFFFF,
        //      Den>>32, Den&0xFFFFFFFF);
        
        while(Num > Den) {
                ret ++;
                Num -= Den;
        }
        return ret;
}

/**
 * \fn Uint64 __umoddi3(Uint64 Num, Uint64 Den)
 * \brief Get the modulus of two 64-bit integers
 */
Uint64 __umoddi3(Uint64 Num, Uint64 Den)
{
        if(Den == 0)    __asm__ __volatile__ ("int $0x0");      // Call Div by Zero Error
        if(Den == 1)    return 0;       // Speed Hacks
        if(Den == 2)    return Num & 1; // Speed Hacks
        if(Den == 4)    return Num & 3; // Speed Hacks
        if(Den == 8)    return Num & 7; // Speed Hacks
        if(Den == 16)   return Num & 15;        // Speed Hacks
        if(Den == 32)   return Num & 31;        // Speed Hacks
        if(Den == 1024) return Num & 1023;      // Speed Hacks
        if(Den == 2048) return Num & 2047;      // Speed Hacks
        if(Den == 4096) return Num & 4095;      // Speed Hacks
        
        if(Num >> 32 == 0 && Den >> 32 == 0)
                return (Uint32)Num % (Uint32)Den;
        
        while(Num > Den)
                Num -= Den;
        return Num;
}

Uint16 LittleEndian16(Uint16 Val)
{
        return Val;
}
Uint16 BigEndian16(Uint16 Val)
{
        return ((Val&0xFF)<<8) | ((Val>>8)&0xFF);
}
Uint32 LittleEndian32(Uint32 Val)
{
        return Val;
}
Uint32 BigEndian32(Uint32 Val)
{
        return ((Val&0xFF)<<24) | ((Val&0xFF00)<<8) | ((Val>>8)&0xFF00) | ((Val>>24)&0xFF);
}

// --- EXPORTS ---
EXPORT(memcpy); EXPORT(memset);
//EXPORT(memcpyw);      EXPORT(memsetw);
EXPORT(memcpyd);        EXPORT(memsetd);
EXPORT(inb);    EXPORT(inw);    EXPORT(ind);
EXPORT(outb);   EXPORT(outw);   EXPORT(outd);
EXPORT(__udivdi3);      EXPORT(__umoddi3);